EP2069154A1

EP2069154A1 - Air spring strut

Info

Publication number: EP2069154A1
Application number: EP07787300A
Authority: EP
Inventors: Ralf Pielock
Original assignee: Continental AG
Current assignee: Continental Teves AG and Co OHG
Priority date: 2006-09-15
Filing date: 2007-07-10
Publication date: 2009-06-17
Also published as: DE102006043471A1; WO2008031649A1

Abstract

The invention relates to an air spring strut (1) for a motor vehicle comprising a mount element (2), an elastomer component (4), a tubular rolling bellows (6) which is connected at its first end (6a) to a cylinder element (8) and at its second end (6b) to a rolling piston (10) and thereby forms a first active space (12), a shock absorber (14) and a connecting element (16), and wherein the mount element (2) can be fixedly connected on the one side by means of the elastomer component (4) to the cylinder element (8) and can be connected on the other side to the body (18) of the motor vehicle, wherein the elastomer component (4) is connected by means of at least one opening (20) in the mount element (2) to a sealing element (22) on the other side of the mount element (2) in order to seal off the first active space (12) from the atmosphere.

Description

Continental Corporation 206-152-PWO.l / Ra

06.07.2007

description

Air spring strut

The invention relates according to the preamble of claim 1 an air spring strut for a motor vehicle comprising a bearing element, an elastomeric component, a hose rolling bellows, which is connected at its first end with a cylindrical member and at its second end with a rolling piston and thus forms a first active space, a Shock absorber and a connecting element, and wherein the bearing element on one side by means of the elastomeric component fixed to the cylinder element and on the other side with the bodywork of the motor vehicle is connectable.

An air spring strut of the aforementioned type is known from DE10315679A1. The known from this document air spring strut has a bearing element which is connected via an elastomeric component with a cylinder element. On the cylinder element, a bellows is arranged, which encloses an air spring volume. The bearing element is connected by bolts fixed to the body of the vehicle. In the inner diameter of a cylindrical portion of the bearing element, a damper bearing is arranged, which is on the other hand connected to the piston rod of the shock absorber of the air spring strut. The area of the damper bearing is sealed by a lid by means of two O-rings against the atmosphere, since the so-called additional space above the damper bearing with the spring chamber is connected and otherwise the air could escape from the spring chamber into the atmosphere.

A disadvantage of the known construction of an air spring strut is that the cover has a very complex structural design and requires large wall thicknesses of the cover for the corresponding receiving groove of the O-rings for the application of conventional O-rings. The object of the invention is to provide an air spring strut with a simple structural and inexpensive construction, which allows the use of thin-walled components.

The object is achieved by the features of claim 1. In such an air spring leg, the elastomeric component communicates through at least one opening in the bearing element with a sealing element on the other side of the bearing element in order to seal the first reaction space from the atmosphere. The advantage of the invention is that, by using a sealing element associated with the elastomeric component, no extra components, e.g. O-rings are necessary, and thus a particularly simple and inexpensive installation of the bearing element incl. The sealing element is possible. Another advantage is that a particularly low overall height in the region of the sealing element can be achieved.

According to a development of the invention according to claim 2 it is provided that the sealing element has a sealing lip. With this sealing lip, the sealing effect of the sealing element can be improved and possibly achieved by the pressure in the first active space supported and thus increased sealing effect.

According to a development of the invention according to claim 3 it is provided that the elastomeric component and the sealing element are made in one piece. The advantage of this development is that the one-piece production is particularly simple and inexpensive and the assembly of the bearing element incl. The sealing element and the elastomer component is simplified and thus improved.

According to a development of the invention according to claim 4 it is provided that the sealing element between the bearing element and the body of the motor vehicle is arranged. The advantage of this development is the fact that the seal between the bearing element and the vehicle body with a structurally simple and inexpensive construction is possible and allows a particularly simple installation. According to a development of the invention according to claim 5 it is provided that the sealing element between the bearing element and a lid is arranged. The advantage of this development is that the air spring strut can be manufactured as a closed module and tested (eg leakage) can be. Thus, the assembly of the air spring strut to the vehicle body is much easier, and the structural design, such as the tolerance requirements, the vehicle body can be reduced in this area, which saves costs.

According to an embodiment of the invention according to claim 6 it is provided that the sealing element is arranged in the region of the body or the lid facing inner diameter of the bearing element. The advantage of this development is that in the upper, the lid or the body facing region of the bearing element, the arrangement of the sealing element and thus the seal is performed at the smallest diameter there existing.

According to a development of the invention according to claim 7 it is provided that the bearing element has at least one bore, wherein the sealing element between the bore and an axis of the air spring strut is arranged. The advantage of this development is that the bore is outside the space to be sealed. Thereby, the sealing element can be easily and inexpensively arranged and executed.

According to an embodiment of the invention according to claim 8, it is provided that a bolt is arranged within the bore such that the head of the bolt is located on the one, the elastomeric component associated side. The advantage of this development is that the bore and the bolt can be sealed by the elastomeric component in a simple and secure manner.

Exemplary embodiments and further advantages are explained in connection with the figures, in which: Fig.l an air spring strut,

2 shows a detail of an air spring strut.

Fig.l shows an air spring strut 1 with a bearing element 2, which is fixedly connected to an elastomeric component 4. At the elastomer component 4, a cylinder element 8 is vulcanized. On the cylinder element 8, a first end 6a of a hose rolling bellows 6 by means of a first clamping ring 7a fixed and sealingly attached. The second end 6b of the hose roll bellows 6 is fixedly and sealingly connected by means of a second clamping ring 7b to a rolling piston 20. The rolling piston 10 is supported on a cylinder 14 of a shock absorber. The conventional hydraulic shock absorber has, in addition to the cylinder 14, a piston rod 13. The cylinder 14 of the shock absorber is connected at its lower end to a connecting element 16 which is connectable to a wheel carrier or the like, not shown, of a motor vehicle.

The protruding from the cylinder 14 of the shock absorber end of the piston rod 13 of the shock absorber is connected via a shock absorber bearing 15 with the bearing element 2. On the bearing element 2, an additional spring element 17 is arranged, which can be supported at a strong deflection of the air spring strut 1 at one axial end of the cylinder 14. A cover 19 fixes the shock absorber bearing 15 in the axial direction relative to the bearing element 2. However, this function could also be taken over by the body 18 of the motor vehicle with a corresponding geometric design.

From the bearing element 2, the Elastomerbauteil 4, the cylinder member 8, the Schlauchrollbalg 6, the rolling piston 10 and the cylinder 14 of the shock absorber, a first active space 12 is enclosed, in which the pressure medium or spring and / or damping medium is, for example air , The second reaction space surrounding the shock absorber bearing 15 communicates with the first reaction space 12 so that pressure fluid from the first reaction space 12 can reach the atmosphere via the second reaction space. The shock absorber bearing 15 has a metallic inner bearing shell and an elastomeric outer region, which is preferably made of polyurethane. Since polyurethane is porous and thus permeable to air, an additional sealing of the bearing element 2 in the region of the shock absorber bearing 15 and the second effective space is required. Due to the limited permissible height of the air spring strut 1 separates a seal by means of conventional O-rings or the like., Since both the bearing element 2, and the lid 19 or the vehicle body are designed as thin-walled sheet metal and / or plastic injection molded parts and no particular Provide radial fixation for an O-ring in the form of a groove. To still allow a secure seal in this area is on the one, the body 18 facing side of

Bearing element 2, a sealing element 22 is arranged, which communicates via two openings 20 in the bearing element 2 with the elastomeric component 4 on the other side of the bearing element 2 in connection.

The sealing element 22 is vulcanized for fixing to the bearing element 2 on. At the

Vulcanization process, the elastomer of the elastomeric component 4 is guided through the openings 20 and so used to form the sealing element 22. The connection of the air spring strut 1 to the body 18 via two or more bolts 30 which can be bolted or welded to the body 18 firmly. The lid 19 is connected by crimping, gluing, screwing or welding firmly to the bearing element 2, so that the air spring strut 1 can be filled, transported and mounted as a closed unit and with pressure medium.

2 shows a section of an air spring strut with a bearing element 2, an elastomeric component 4, a cylinder element 8, wherein the elastomeric component 4 to the

Bearing element 2 and the cylinder element 8 is vulcanized. In the area of one, the body (not shown) facing side and the inner diameter d of the bearing element 2, a sealing element 22 is arranged. To connect the bearing element 2 with a body, not shown, of a motor vehicle, two or more bolts 30 are fixedly connected to the bearing element 2. In the embodiment of Figure 2, the bolts are guided through a bore 26 of the bearing element 2 such the head 30a of the bolt 30 is surrounded by the elastomer component 4. The other end of the bolt 30 protrudes on one side of the bearing element 2 beyond this in order to be bolted to the body can.

The sealing element 22 is vulcanized onto the bearing element 2 and is connected to the elastomer component 4 via at least one opening 20, in this case two openings 20. The sealing element 22 and the elastomeric component 4 are made of the same elastomeric material. The sealing element 22 is arranged between the bore 26 and an axis 28 of the bearing element 2, so that a secure seal of the first and / or second reaction space is ensured. For better sealing of the first and / or second

Wirkraums against a body, not shown, or a lid, not shown, the sealing element 22 has two circumferential sealing lips 24. It is also possible that only one circumferential sealing lip 24 or more than two circumferential sealing lips 24 are used.

The invention is not limited to the embodiments of Fig.l or Fig.2. It is also possible to use the invention in hydropneumatic air spring struts or gas spring damper units without hydraulic damper.

List of Reference Numerals (part of the description)

1 - air spring strut 2 - bearing element 4 - Elastomerbauteil 6 - Schlauchrollbalg 6a - first end 6b - second end 7a - first clamping ring 7b - second clamping ring 8 - cylinder element 10 - rolling piston 12 - first effective space 13 - piston rod

14 - cylinder

15 - shock absorber bearing

16 - connecting element

17 - additional spring 18 - body

19 - cover

20 - opening

22 - sealing element 24 - sealing lip 26 - bore 28 - axis 30 - bolt 30a - head of the bolt

Claims

claims

1. air spring strut (1) for a motor vehicle, comprising a bearing element (2), an elastomer component (4), a hose roll bellows (6) which at its first end (6a) with a cylindrical element (8) and at its second end (6b) is connected to a rolling piston (10) and thus forms a first active space (12), a shock absorber (14) and a connecting element (16), and wherein the bearing element (2) on one side by means of the elastomeric component (4) fixed to the Cylinder element (8) and on the other side with the body (18) of the motor vehicle is connectable, characterized in that the elastomeric component (4) by at least one opening (20) in the bearing element (2) with a sealing element (22) on the the other side of the bearing element (2) is in communication to seal the first active space (12) from the atmosphere.

2. air spring strut (1) for a motor vehicle according to claim 1, characterized in that the sealing element (22) has a sealing lip (24).

3. air spring strut (1) for a motor vehicle according to claim 1 or 2, characterized in that the elastomeric component (4) and the sealing element (22) are made in one piece.

4. air spring strut (1) for a motor vehicle according to claim 1, 2 or 3, characterized in that the sealing element (22) between the bearing element (2) and the body (18) of the motor vehicle is arranged.

5. air spring strut (1) for a motor vehicle according to claim 1, 2, 3 or 4, characterized in that the sealing element (22) between the bearing element (2) and a lid (19) is arranged.

6. air spring strut for a motor vehicle according to claim 4 or 5, characterized in that the sealing element (22) in the region of the body (18) or the lid (19) facing the inner diameter (d) of the bearing element (2) is arranged.

7. air spring strut (1) for a motor vehicle according to one of the preceding claims, characterized in that the bearing element (2) has at least one bore (26), wherein the sealing element (22) between the bore (26) and an axis (28) of the bearing element (2) is arranged.

8. air spring strut (1) for a motor vehicle according to claim 7, characterized in that a bolt (30) within the bore (26) is arranged such that the head (30 a) of the bolt (30) on the other, the elastomer component (4) associated page.